Gallium oxide is dissolved in hot nitric acid.
Molarity = moles of solute/Liters of solution ( get moles of HNO3 and 300 ml = 0.300 Liters ) 0.31 grams Nitric acid (1 mole HNO3/63.018 grams) = 0.004919 moles HNO3 Molarity = 0.004919 moles HNO3/0.300 Liters = 0.0164 M HNO3
if we dissolve a starch in water it forms a colloidal solution and the particle size is much larger to completely dissolve in water
A solution
No sugar does not dosolve in water
HNO3 is a strong acid, which means it dissociates completely. This means you don't have to set up an equilibrium scenario; you can just go with the given molarity as also being the concentration of hydrogen ions [H+]. So, pH = -log(0.00884), which is about 2.05.
The oxidation number for Ga in Ga2O3 is +3.
Yes. The reaction is fast and exothermic. The equation is NaOH + HNO3 --> H2O + NaNO3
I think, concentrated Nitric acid (HNO3)
Yes. HNO3 is an electrolyte. In water, it will dissolve into H+ ions and NO3- ions.
Molarity = moles of solute/Liters of solution ( get moles of HNO3 and 300 ml = 0.300 Liters ) 0.31 grams Nitric acid (1 mole HNO3/63.018 grams) = 0.004919 moles HNO3 Molarity = 0.004919 moles HNO3/0.300 Liters = 0.0164 M HNO3
HNO3 + H2O -> H3O + NO3 is very acidic. This is because HNO3 is a strong acid and almost completely dissociates in water
When AgNo3 reacts with iodide ions, the precipitate of AgI is formed.AgI is insoluble in HNO3. The symbol of the cation os, I-.
The classic solvent is aqua regia: 1 part HNO3 and 3 parts HCl (cocentrated acids).
You would dissolve 1 part HNO3 into 99 parts of your solvent.
The sulfate ion SO42- reacts with Barium Chloride to form the insoluble BaSO4. It will not even dissolve in nitric acid.
no
They don't dissolve (or more properly, dissociate) completely in water, only partially. Acids or bases that dissociate completely are called strong acids or bases.